Django dynamic model fields

Question

I'm working on a multi-tenanted application in which some users can define their own data fields (via the admin) to collect additional data in forms and report on the data. The latter bit makes JSONField not a great option, so instead I have the following solution:

class CustomDataField(models.Model):
    """
    Abstract specification for arbitrary data fields.
    Not used for holding data itself, but metadata about the fields.
    """
    site = models.ForeignKey(Site, default=settings.SITE_ID)
    name = models.CharField(max_length=64)

    class Meta:
        abstract = True

class CustomDataValue(models.Model):
    """
    Abstract specification for arbitrary data.
    """
    value = models.CharField(max_length=1024)

    class Meta:
        abstract = True

Note how CustomDataField has a ForeignKey to Site - each Site will have a different set of custom data fields, but use the same database. Then the various concrete data fields can be defined as:

class UserCustomDataField(CustomDataField):
    pass

class UserCustomDataValue(CustomDataValue):
    custom_field = models.ForeignKey(UserCustomDataField)
    user = models.ForeignKey(User, related_name='custom_data')

    class Meta:
        unique_together=(('user','custom_field'),)

This leads to the following use:

custom_field = UserCustomDataField.objects.create(name='zodiac', site=my_site) #probably created in the admin
user = User.objects.create(username='foo')
user_sign = UserCustomDataValue(custom_field=custom_field, user=user, data='Libra')
user.custom_data.add(user_sign) #actually, what does this even do?

But this feels very clunky, particularly with the need to manually create the related data and associate it with the concrete model. Is there a better approach?

Options that have been pre-emptively discarded:

• Custom SQL to modify tables on-the-fly. Partly because this won't scale and partly because it's too much of a hack.
• Schema-less solutions like NoSQL. I have nothing against them, but they're still not a good fit. Ultimately this data is typed, and the possibility exists of using a third-party reporting application.
• JSONField, as listed above, as it's not going to work well with queries.

Answer 1

As of today, there are four available approaches, two of them requiring a certain storage backend:

1. Django-eav (proposed by GDorn in his answer)

   This solution is based on Entity Attribute Value data model, essentially, it uses several tables to store dynamic attributes of objects. Great parts about this solution is that it:

   • uses several pure and simple Django models to represent dynamic fields, which makes it simple to understand and database-agnostic;

   • allows you to effectively attach/detach dynamic attribute storage to Django model with simple commands like:

     eav.unregister(Encounter)
     eav.register(Patient)
     

   • Nicely integrates with Django admin;

   • At the same time being really powerful.

   Downsides:

   • Not very efficient. This is more of a criticism of the EAV pattern itself, which requires manually merging the data from a column format to a set of key-value pairs in the model.
   • Harder to maintain. Maintaining data integrity requires a multi-column unique key constraint, which may be inefficient on some databases.
   • Still in development.

   The usage is pretty straightforward:

   import eav
   from app.models import Patient, Encounter
   
   eav.register(Encounter)
   eav.register(Patient)
   Attribute.objects.create(name='age', datatype=Attribute.TYPE_INT)
   Attribute.objects.create(name='height', datatype=Attribute.TYPE_FLOAT)
   Attribute.objects.create(name='weight', datatype=Attribute.TYPE_FLOAT)
   Attribute.objects.create(name='city', datatype=Attribute.TYPE_TEXT)
   Attribute.objects.create(name='country', datatype=Attribute.TYPE_TEXT)
   
   self.yes = EnumValue.objects.create(value='yes')
   self.no = EnumValue.objects.create(value='no')
   self.unkown = EnumValue.objects.create(value='unkown')
   ynu = EnumGroup.objects.create(name='Yes / No / Unknown')
   ynu.enums.add(self.yes)
   ynu.enums.add(self.no)
   ynu.enums.add(self.unkown)
   
   Attribute.objects.create(name='fever', datatype=Attribute.TYPE_ENUM,\
                                          enum_group=ynu)
   
   # When you register a model within EAV,
   # you can access all of EAV attributes:
   
   Patient.objects.create(name='Bob', eav__age=12,
                              eav__fever=no, eav__city='New York',
                              eav__country='USA')
   # You can filter queries based on their EAV fields:
   
   query1 = Patient.objects.filter(Q(eav__city__contains='Y'))
   query2 = Q(eav__city__contains='Y') |  Q(eav__fever=no)
   

2. Django-hstore

   This is a PostgreSQL backend which makes use of hstore module. With it you can have a DictionaryField which stores editable and indexable dictionary.

   This approach is good in a sense that it lets you have the best of both worlds: dynamic fields and relational database. However, hstore is not ideal performance-wise, especially if you are going to end up storing thousands of items in one field.

   #app/models.py
   class Something(models.Model):
       name = models.CharField(max_length=32)
       data = hstore.DictionaryField(db_index=True)
   

   In Django-shell you can use it like this:

   >>> instance = Something.objects.create(
                    name='something',
                    data={'a': '1', 'b': '2'}
              )
   >>> instance.data['a']
   '1'        
   >>> empty = Something.objects.create(name='empty')
   >>> empty.data
   {}
   >>> empty.data['a'] = '1'
   >>> empty.save()
   >>> Something.objects.get(name='something').data['a']
   '1'
   

   You can issue indexed queries against hstore fields:

   # equivalence
   Something.objects.filter(data={'a': '1', 'b': '2'})
   
   # subset by key/value mapping
   Something.objects.filter(data__contains={'a': '1'})
   
   # subset by list of keys
   Something.objects.filter(data__contains=['a', 'b'])
   
   # subset by single key
   Something.objects.filter(data__contains='a')    
   

3. Django MongoDB

   Or other NoSQL Django adaptations -- with them you can have fully dynamic models.

   NoSQL Django libraries are great, but keep in mind that they are not 100% the Django-compatible, for example, to migrate to Django-nonrel from standard Django you will need to replace ManyToMany with ListField among other things.

   Checkout this Django MongoDB example:

   from djangotoolbox.fields import DictField
   
   class Image(models.Model):
       exif = DictField()
   ...
   
   >>> image = Image.objects.create(exif=get_exif_data(...))
   >>> image.exif
   {u'camera_model' : 'Spamcams 4242', 'exposure_time' : 0.3, ...}
   

   You can even create embedded lists of any Django models:

   class Container(models.Model):
       stuff = ListField(EmbeddedModelField())
   
   class FooModel(models.Model):
       foo = models.IntegerField()
   
   class BarModel(models.Model):
       bar = models.CharField()
   ...
   
   >>> Container.objects.create(
       stuff=[FooModel(foo=42), BarModel(bar='spam')]
   )
   

4. Dynamic models based on syncdb and South-hooks

   Incredible but somewhat hackish Will Hardy`s approach which is based on Django South hooks, which, according to his talk at DjangoCon 2011 (watch it!) is nevertheless robust and tested in production (according DjangoCon paper).

   There is an even more advanced dynamic model project currently in the works called django-mutant which implements fully dynamic Foreign Key and m2m fields, and will soon have a proper lock in order to maintain data integrity during simultaneous model altering requests. This library is inspired by Will Hardy and Michael Hall's approaches.

   You might also be interested in an older implementation by Michael Hall.

   Yes, this is magic, with these approaches you can achieve fully dynamic Django apps, models and fields with any relational database backend. But at what cost? Will stability of application suffer upon heavy use? These are the questions to be considered. You will need to implement a lock in order to allow simultaneous database altering requests.

   If you are using Michael Halls lib, your code will look like this:

   from dynamo import models
   
   test_app, created = models.DynamicApp.objects.get_or_create(
                         name='dynamo'
                       )
   test, created = models.DynamicModel.objects.get_or_create(
                     name='Test',
                     verbose_name='Test Model',
                     app=test_app
                  )
   foo, created = models.DynamicModelField.objects.get_or_create(
                     name = 'foo',
                     verbose_name = 'Foo Field',
                     model = test,
                     field_type = 'dynamiccharfield',
                     null = True,
                     blank = True,
                     unique = False,
                     help_text = 'Test field for Foo',
                  )
   bar, created = models.DynamicModelField.objects.get_or_create(
                     name = 'bar',
                     verbose_name = 'Bar Field',
                     model = test,
                     field_type = 'dynamicintegerfield',
                     null = True,
                     blank = True,
                     unique = False,
                     help_text = 'Test field for Bar',
                  )
   

Answer 2

I've been working on pushing the django-dynamo idea further. The project is still undocumented but you can read the code at https://github.com/charettes/django-mutant.

Actually FK and M2M fields (see contrib.related) also work and it's even possible to define wrapper for your own custom fields.

There's also support for model options such as unique_together and ordering plus Model bases so you can subclass model proxy, abstract or mixins.

I'm actually working on a not in-memory lock mechanism to make sure model definitions can be shared accross multiple django running instances while preventing them using obsolete definition.

The project is still very alpha but it's a cornerstone technology for one of my project so I'll have to take it to production ready. The big plan is supporting django-nonrel also so we can leverage the mongodb driver.

Answer 3

Further research reveals that this is a somewhat special case of Entity Attribute Value design pattern, which has been implemented for Django by a couple of packages.

First, there's the original eav-django project, which is on PyPi.

Second, there's a more recent fork of the first project, django-eav which is primarily a refactor to allow use of EAV with django's own models or models in third-party apps.